研究领域
My principal scientific interests are in the fields of sedimentary petrology, diagenesis, geological carbon sequestration, environmental and petroleum 地质. 我的话题 currently working on include:
- Geologic controls on induced seismicity
- The relationship between carbonate cementation, fluid flow, microbial activity and permeability heterogeneity in clastic sedimentary rocks.
- Controls on fault-zone cementation, fluid flow, the relationship of fault zone diagenesis to permeability.
- Reservoir/seal analysis for petroleum systems and proposed carbon sequestration sites
出版物
凯瑟,M.罗斯科斯,D.加拉格尔,S.特鲁希略,n.n.凯瑟,S.霍林沃, R.S., Mozley, P.S.李瑞,R.J., 2021, Deposition, diagenesis, sequence stratigraphy of the Pennsylvanian Morrowan and Atokan intervals at Farnesworth Unit: Energies, v. 14日,doi.org/10.3390/en14041057.
巴恩斯,H.伊诺霍萨,J.R.斯皮内利,G.A., Mozley, P.S.科宁,D.斯普劳尔,T.G.威尔逊,J.L., 2021, Detecting fault zone characteristics and paleo-valley incision using electrical resistivity: Loma Blanca Fault, New Mexico: 地球物理学,v. 86, p. 1-53.
Sproule T.G,斯皮内利,G.A.威尔逊,J.L.马萨诸塞州堡市.D., Mozley, P.S.J . Ciarico., 2020, The effects of fault-zone cementation on groundwater flow at the field scale: Groundwater, doi.org/10.1111 / gwat.13062.
皮特里,E.S.布拉德伯里,K.K.库奇奥,L.史密斯,K.埃文斯,J.P.奥尔蒂斯,P.肯纳, K., Person, M., Mozley, P., 2020, Geologic characterization of nonconformities using outcrop and core analogs: hydrologic implications for injection-induced seismicity: Solid 地球, v. 5., p. 1803-1821.
吴,Z.卢曼,A.J.莱因哈特,A.J., Mozley, P.S.杜尔斯,T.A.希斯,J.E.马宗达,B.S., 2020, Chemo‐mechanical Alterations CO诱导2 Injection in Carbonate‐Cemented Sandstone: An Experimental Study at 71 °C and 29 MPa: Journal of Geophysical 研究: Solid 地球: v. 125年,doi.org/10.1029/201JB019096.
Yoon H.英格拉姆,M.D.格里格,J.罗萨迪克,B.莱因哈特,A.穆克,W.M.Dewers, T., Mozley, P., 2020, Impact of depositional and diagenetic heterogeneity on multiscale mechanical behavior of Mancos Shale, New Mexico and Utah, USA. In: Camp, W.K.纽约州菲什曼(Fishman.S., 哈克利,P.C.麦夸克,J.H.S,米利肯,K.L.泰勒,K.G. (Eds.)、泥岩成岩作用: 研究 Perspectives for Shale Hydrocarbon Reservoirs, Seals, Source Rocks, American Association of Petroleum Geologists, Memoir 120, p. 121-148.
威廉姆斯,R.T., Mozley, P.S.夏普,W.D.L .古德温.B., 2019, U‐Th Dating of Syntectonic Calcite Veins Reveals the Dynamic Nature of Fracture Cementation and Healing in Faults: AGU Geophysical 研究通讯,v. 46. p. 12900 - 12908年,doi.org/10.1029/2019GL085403.
Dewers T.希斯,J.尹浩.英格拉姆,M.格里格,J.莫兹利,P.昆塔纳,E., Karpyn Z., 2019, Pore-to core characterization of shale muliphysics, in维耶尔,S.阿霍-富兰克林,J.凯里,WJ.W., eds., Geological Carbon Storage: Subsurface Seals and Caprock Integrity: American Geophysical Union, Geophysical Monograph 238, 45 - 70.
奥尔蒂斯,J.P., Person, M.A.莫兹利,P.S.埃文斯,J.P.比莱克,S.L., 2018,角色 of fault‐zone architectural elements on pore pressure propagation and induced seismicity: 地下水(受压); doi: 10.1111/gwat.12818.
威廉姆斯,R.T.比尔德,B.L.L .古德温.B.夏普,W.D.约翰逊,C.M.莫兹利, P.S., 2018, Radiogenic isotopes record a ‘drop in a bucket’ – A fingerprint of multi-kilometer-scale fluid pathways inferred to drive fault-valve behavior: Jourrnal of Structural Geology (新闻), http://doi.org/10.1016/j.jsg.2018.07.023
威廉姆斯,R.T.L .古德温.B.夏普,W.D.莫兹利,P.S., 2017, A 400,000-year record of earthquake frequency for an intraplate fault: Proceedings of the National Academy 科学,,,v .. 114日,doi: 10.1073 / pnas.1617945114..
威廉姆斯,R.T.L .古德温.B.莫兹利,P.S., 2017, Diagenetic controls on the evolution of fault-zone architecture and permeability structure: implications for fault-zone fluid transport in extensional basins: GSA 公告,v. 129, p. 464-478, doi: 10.1130/B31443.1.
Ampomah W.巴尔奇,R.凯瑟,M.罗斯科斯,D.,振学,D.希斯,J.Dewers, T.莫兹利,P., 2016, CO评价2 一氧化碳储存机制2 enhanced oil recovery sites: Application to Morrow Sandstone reservoir: Energy and 燃料,v. 30, p. 8545-8555, doi: 10.1021.
张,Y.埃德尔,S.佩平,J., Person, M.布罗德海德,R.奥尔蒂斯,J.比莱克,S.Mozley, P.埃文斯,J., 2016, Exploring the potential linkages between oil-field brine reinjection, crystalline basement permeability, triggered seismicity for the Dagger Draw oil field, southeastern New Mexico, USA using hydrologic modeling: Geofluids, v. 16, p. 971-987, doi: 10.1111 /金五环.12199.
Mozley P.S.希斯,J.杜尔斯,T.鲍尔,S., 2016, Origin and heterogeneity of pore sizes in the Mount Simon Sandstone and Eau Claire Formation: Implications for multiphase fluid flow: Geosphere, v. 12, p. 1日到21日,doi: 10.1130 / GES01245.1.
Raduha,年代.巴特勒博士.莫兹利,P., Person, M.埃文斯,J.希斯,J.杜尔斯,T., Stauffer P.盖博,C.Kelkar, S., 2016, Potential seal bypass and caprock storage produced by deformation-band-to-opening-mode-fracture transition at the reservoir/caprock 界面:地流体,v. 16, p. 752-768, doi: 10.1111 /金五环.12177.
El-Shawaihdi, M.H., Mozley, P.S.波阿斯,n.n.T.萨卢姆,F.帕夫拉基斯,P.穆夫塔,A.和Triantaphyllou, M., 2016, Stratigraphy of the Neogene Sahabi units in the Sirt Basin, northeast Libya: Journal of African 地球 Sciences Journal of African 地球 Sciences, v. 118, p. 87-106.
威廉姆斯,R.T.L .古德温.B.莫兹利,P.S.比尔德,B.L.约翰逊,C.M., 2015, Tectonic controls on fault zone flow pathways in the Rio Grande rift, New Mexico, 美国:地质学,doi: 10.1130/G36799.1
Rainoldi,.L.Franchini, M.博福特,D.莫兹利,P.朱西亚诺,A.Cesaretti, N.P.Impiccini, A.庞斯,J., 2015, Mineral reactions associated with hydrocarbon paleo-migration in the Huincul High, Neuquén Basin, Argentina: Geological Society of America Bulletin, doi: 10.1130/B31201.1.
戴尔,.,约翰,C.M.莫兹利,P.S.,斯莫利,P.C.马格里奇,A.H., 2014,时间胶囊 concretions: unlocking burial diagenetic processes in the Mancos Shale using carbonate clumped isotopes: 地球 and Planetary Science Letters, v. 394, p. 30-37.
El-Shawaihdi, M.H.穆夫塔,A.M.莫兹利,P.S.波阿斯,N.T., 2014, New age constraints for Neogene sediments of the Sahabi area, Libya (Sirt Basin) using strontium isotope (87Sr/86Sr) geochronology and calcareous nannofossils: Journal of African 地球 Sciences: v. 89, p. 42-49.
张,Y., Person, M.拉普,J.艾里特,K.西莉亚,M.A.盖博,C.W.鲍文,B.埃文斯, J.班迪拉,K.莫兹利,P.S.杜尔斯,T.艾略特,T., 2013, Hydrogeologic controls on induced seismicity in crystalline basement rocks due to fluid injection into basal reservoirs: Groundwater, v. 51, p. 525-538.
希斯J.E.杜尔斯,T.A.麦克弗森,B.J.彼得鲁萨克,R.奇德西,T.C. Jr.莱因哈特, A.J.莫兹利, P.S., 2011, Pore networks in continental and marine mudstones: characteristics and controls on sealing behavior: Geosphere, v. 7, p. 429-454.
白色,R.斯皮内利,G.A.莫兹利,P.S., N.W. Dunbar, 2010, Importance of volcanic glass alteration to sediment stabilization, offshore Japan: Sedimentology, v. 58, p. 1138-1154.
Seright R.S.坎贝尔,A.R. 莫兹利,P.S., 2009, Stability of partially hydrolyzed polyacrylamides at elevated temperatures in the absence of divalent cations: Society of Petroleum Engineers, SPE Journal, 121460, p. 1–15. doi:10.2118/121460-MS
卢卡雷利,G.A.莫兹利,P.S.托宾,H.J.霍夫曼,n.n.安德伍德,M.B., 2007, Diagenetic control of sediment strength and pore collapse in sediment approaching the Nankai Trough subduction zone: Geological Society of America 公告,v. 119, p. 337-390.
Mozley P.S.伯恩斯,S.J., 2006, Climatic significance of Holocene beachrock sites along shorelines of the Red Sea: Discussion: American Association of Petroleum Geologists 公告,v. 90, p. 971-973.
Delude-Roy N.戴维斯,J。.M.莫兹利,P.S.霍尔,J.S., 2006, The effect of carbonate cementation on permeability heterogeneity in fluvial aquifers: Sedimentary Geology (Special issue on heterogeneity in sedimentary aquifers), v. 184, p. 267-280. doi: 10.1016/j.sedgeo.2005.11.005. 摘要.
Mozley P.S.戴维斯,J。.M., 2005, Internal structure and mode of growth of elongate calcite concretions: Evidence for small-scale, microbially induced, chemical heterogeneity in groundwater: Geological Society of America Bulletin 117(11):1400-1412. doi: 10.1130/B25618.1. 摘要.
本斯J.P.莫兹利,P.S.Dunbar, n.n.W., 2005, Importance of clay in iron transport and sediment reddening: Evidence from reduction features of the Abo Formation, New Mexico: Journal of 沉积研究,5. 75(4), p. 562-571.
大厅,J.S.莫兹利,P.S.戴维斯,J。.M.纽约州的鲁德-罗伊(delde - roy)., 2004, Environments of formation and controls on spatial distribution of calcite cementation in Plio-Pleistocene fluvial deposits, New Mexico, USA: Journal of 沉积研究,5. 74(5), p. 643-653.
Mozley P.S., 2002, Diagenetic Structures, in Encyclopedia of Sediments and Sedimentary 岩石(Ed. 通过G. Middleton): Kluwer Academic Press, 219-225.
古德温,.B.莫兹利,P.S.摩尔,J.C.Haneberg, W.C., 1999, Faults and subsurface fluid flow in the shallow crust: An introduction, inW . Haneberg.C.莫兹利,P.S., 摩尔,J.C.和L .古德温.B., eds., Faults and Subsurface Fluid Flow in the Shallow 地壳, AGU专著113, p. 1-5.
Heynekamp, M.R.L .古德温.B.莫兹利,P.S.Haneberg, W.C., 1999年,控制 fault-zone architecture in poorly lithified sediments, Rio Grande Rift, New Mexico: Implications for fault-zone permeability and fluid flow, inW . Haneberg.C.Mozley, P.S.摩尔,J.C.和L .古德温.B., eds., Faults and Subsurface Fluid Flow in the 浅层地壳, AGU专著113, p. 27-49.
Sigda J.M.L .古德温.B.莫兹利,P.S.威尔逊,J.L., 1999, Permeability alteration in small-displacement faults within poorly consolidated sediments: central Rio Grande Rift, New Mexico, inW . Haneberg.C.莫兹利,P.S.摩尔,J.C.和L .古德温.B., eds., Faults and Subsurface Fluid Flow in the 浅层地壳, AGU专著113, p. 51 – 68.
惠特沃思T.M.W . Haneberg.C.莫兹利,P.S.和L .古德温.B., 1999,溶质筛分 induced calcite precipitation on pulverized quartz sand ?? experimental results and implications for the membrane behavior of fault gouge, inW . Haneberg.C.Mozley, P.S.摩尔,J.C.和L .古德温.B., eds., Faults and Subsurface Fluid Flow in the 浅层地壳, AGU专著113, p. 149-158.
克莱恩J.S.莫兹利,P.S.坎贝尔,A.科尔,R., 1999, Spatial distribution of carbon and oxygen isotopes in laterally extensive carbonate cemented layers: implications for mode of growth and subsurface identification: Journal of Sedimentary 研究, v. 69, p. 184-201.
Beckner J.莫兹利,P.S., 1998, Origin and spatial distribution of early phreatic and vadose calcite cements in the Zia Formation, Albuquerque Basin, New Mexico, USA, in, S. Morad ed., Carbonate cements in sandstones: International Association of Sedimentologists Special Publication 26, p. 27-51.
兰伯特,M.R.科尔,r.r.D.莫兹利,P.S., 1997, Controls on permeability heterogeneity in the Tocito Sandstone (Upper Cretaceous), northwest New Mexico: in, Anderson, O. Kues, B.S., eds., New Mexico Geological Society Guidebook, 48th Field Conference, Mesozoic Geology and Paleontology of the Four Corners Region, p. 217-228.
Mozley P.S., 1996, The internal structure of carbonate concretions: A critical evaluation of the concentric model of concretion growth: Sedimentary Geology, v. 103, p. 85-91.
Mozley P.S., 戴维斯J.M.D., 1996, Relationship between oriented calcite concretions and permeability correlation structure in an alluvial aquifer, Sierra Ladrones Formation, New Mexico: Journal of 沉积研究,5. A66, p. 11-16.
Mozley P.S.贝克纳,J.惠特沃思,T.M., 1995, Spatial distribution of calcite cement in the Santa Fe Group, Albuquerque Basin, NM: Implications for groundwater resources: New Mexico Geology, Special Issue: Albuquerque Basin — studies in hydro地质, v. 17, p. 88-93.
Mozley P.S., 古德温,., 1995, Patterns of cementation along a Cenozoic normal fault: A record of paleoflow orientations: Geology, v. 23, p 539-542.
Mozley P.S.伯恩斯,S.J., 1993, Oxygen and carbon isotopic composition of marine carbonate concretions: an overview: reply: Journal of Sedimentary Petrology, v. 63, p. 1008.
Mozley P.S.和Wersin, P., 1993, Isotopic composition of siderite as an indicator of depositional environment: reply: Geology, v. 21, p. 380.
Mozley P.S.伯恩斯,S.J., 1993, Oxygen and carbon isotopic composition of marine carbonate concretions: an overview: Journal of Sedimentary Petrology, v. 63, p. 73-83.
Mozley P.S.卡罗瑟斯,W., 1992, Geochemistry of siderite in the Kuparuk Formation, Alaska: Influence of water/sediment interaction and microbial activity on early pore-water chemistry, Journal of Sedimentary Petrology, v. 62, p. 681-692.
Mozley P.S.和Wersin, P., 1992, Isotopic composition of siderite as an indicator of depositional environment: Geology, v. 20, p. 817-820.
Mozley P.S.霍恩尔,K., 1990, Geochemistry of carbonate cements in the Sag River and Shublik Formations (Triassic/Jurassic), North Slope, Alaska: Implications for the geochemical evolution of formation waters: Sedimentology, v. 37, p. 817-836.
Mozley P.S., 1989, Complex compositional zonation in concretionary siderite: Implications for geochemical studies: Journal of Sedimentary Petrology, v. 59, p. 815-818.
Mozley P.S., 1989, Relation between depositional environment and the elemental composition of early diagenetic siderite: Geology, v. 17, p. 704- 706.